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Serodiagnosis of Helicobacter pylori infection by Cobas Core ELISA in adults from Minas Gerais, Brazil

Abstract

We evaluated the accuracy of a 2nd generation ELISA to detect Helicobacter pylori infection in adults from a developing country in view of variations in sensitivity and specificity reported for different populations. We studied 97 non-consecutive patients who underwent endoscopy for evaluation of dispeptic symptoms. The presence of H. pylori was determined in antral biopsy specimens by culture, by the preformed urease test and in carbolfuchsin-stained smears. Patients were considered to be H. pylori positive if at least two of the three tests presented a positive result or if the culture was positive, and negative if the three tests were negative. Sixty-five adults (31 with peptic ulcer) were H. pylori positive and 32 adults were H. pylori negative. Antibodies were detected by Cobas Core anti-H. pylori EIA in 62 of 65 H. pylori-positive adults and in none of the negative adults. The sensitivity, specificity and positive and negative predictive values of the test were 95.4, 100, 100 and 91.4%, respectively. The Cobas Core anti-H. pylori EIA presented high sensitivity and specificity when employed for a population in Brazil, permitting the use of the test both to confirm the clinical diagnosis and to perform epidemiologic surveys.

Helicobacter pylori; serodiagnosis; ELISA


Braz J Med Biol Res, October 1998, Volume 31(10) 1263-1268

Serodiagnosis of Helicobacter pylori infection by Cobas Core ELISA in adults from Minas Gerais, Brazil

G.A. Rocha1, A.M.R. Oliveira1, D.M.M. Queiroz1, E.N. Mendes1, S.B. Moura3, C.A. Oliveira2 and T.C.A. Ferrari2

1Laboratório de Pesquisa em Bacteriologia and 2Departamento de Clínica Médica, Faculdade de Medicina, and 3Departamento de Microbiologia, Instituto de Ciências Biológicas, Universidade Federal de Minas Gerais, Belo Horizonte, MG, Brasil

Patients and Methods

References

Abstract

Introduction

Results

Correspondence and Footnotes Correspondence and Footnotes Correspondence and Footnotes

We evaluated the accuracy of a 2nd generation ELISA to detect Helicobacter pylori infection in adults from a developing country in view of variations in sensitivity and specificity reported for different populations. We studied 97 non-consecutive patients who underwent endoscopy for evaluation of dispeptic symptoms. The presence of H. pylori was determined in antral biopsy specimens by culture, by the preformed urease test and in carbolfuchsin-stained smears. Patients were considered to be H. pylori positive if at least two of the three tests presented a positive result or if the culture was positive, and negative if the three tests were negative. Sixty-five adults (31 with peptic ulcer) were H. pylori positive and 32 adults were H. pylori negative. Antibodies were detected by Cobas Core anti-H. pylori EIA in 62 of 65 H. pylori-positive adults and in none of the negative adults. The sensitivity, specificity and positive and negative predictive values of the test were 95.4, 100, 100 and 91.4%, respectively. The Cobas Core anti-H. pylori EIA presented high sensitivity and specificity when employed for a population in Brazil, permitting the use of the test both to confirm the clinical diagnosis and to perform epidemiologic surveys.

Key words:Helicobacter pylori, serodiagnosis, ELISA

Helicobacter pylori is now recognized as the major etiologic agent of gastritis, as an essential factor in the pathogenesis of peptic ulcer (1) and also as a factor involved in the etiopathogenesis of gastric carcinoma (2,3).

Several methods have been employed for the diagnosis of H. pylori infection. Methods such as culture (4), determination of the presence of the microorganism in stained smears (5) and in histological sections (6), the preformed urease test (7) and PCR (8) require esophagogastroduodenoscopy to obtain fragments of gastric mucosa and, although sensitive and specific, are not indicated for epidemiological surveys. The methods most often used for this purpose are the detection of serum antibodies (9,10) and the respiratory test with 13C-labelled urea (11).

Among the serologic methods available, ELISA is the most frequently employed because of its speed, simplicity and reproducibility (12,13). The sensitivity and specificity of the ELISA depend on the antigen preparation employed (14,15) and the gold standard used to compare tests (16,17). Tests that employ partially or highly purified antigens free of flagellar proteins (considered as 2nd generation) have improved the accuracy of ELISA (14,18). With respect to the gold standard, the use of 2 or more tests has been recommended for the diagnosis of infection. Also, it is recommended that a result should be considered truly positive only when at least 2 tests are positive, and truly negative when all the tests are negative. The result should also be considered truly positive when only the culture is positive because, in this case, no false-positive results are expected (17).

In addition to these considerations the literature has reported variations in the sensitivity and specificity of serologic tests when different populations are studied. Goossens et al. (12), using the same commercial ELISA kit in populations of different origins, demonstrated high specificity (95%) of the test for the population of Belgium and only 70% specificity for the population of Mediterranean origin. For these reasons, it is highly advisable to evaluate an ELISA on the population to be studied by testing a well-defined serum panel before its use as a diagnostic tool for H. pylori (12,16,19).

Therefore, the present study was designed to evaluate the accuracy of a 2nd generation ELISA to detect H. pylori infection in adults from Minas Gerais, Brazil, employing 3 methods (culture, urease test and stained smears) as the gold standard and adopting specific and rigorous criteria to establish the diagnosis of infection.

Patients and Methods

This project was approved by the Ethics Committee of Hospital das Clínicas, Universidade Federal de Minas Gerais, Brazil, and informed consent was obtained from all patients.

From January to December 1995 we studied prospectively 97 non-consecutive patients (44 men and 53 women; mean age, 42.5 years; range, 20 to 78 years) who underwent upper gastrointestinal endoscopy for evaluation of symptoms related to the upper gastrointestinal tract. Patients taking antimicrobial drugs during the last 3 months before endoscopy were not included in the study. Among the H. pylori-positive patients 31 (13 males and 18 females) presented peptic ulcer. The characteristics of the studied population are listed in Table 1.

At endoscopy, 3 biopsy specimens were obtained from the antral gastric mucosa for H. pylori identification. One fragment was placed in a tube containing Christensen's 2% urea agar. Another specimen was smeared on a glass slide, heat fixed, stained with 40% carbolfuchsin (20) and examined under an immersion lens. The specimen for culture was kept in thioglycolate broth (Difco Laboratories, Detroit, MI) at 4oC for no longer than 5 h before processing. The tissue specimens were homogenized in tissue grinders and plated onto Belo Horizonte medium (BHM) (4). The plates were incubated at 37oC in a microaerophilic environment for up to 7 days. Colonies of H. pylori were identified by Gram-negative appearance, positive oxidase and catalase tests, and a rapidly positive urease test.

Patients were considered to be H. pylori positive if at least two of the three tests were positive or if the culture alone was positive, and negative, if the three tests were negative.

Blood samples were drawn from each patient for serology at the time of endoscopy and the sera were stored at -20oC before testing.

H. pylori antibodies were assayed by the Cobas Core anti-H. pylori IgG EIA (Roche Diagnostic Systems, Basel, Switzerland), a second generation EIA that employs a well-characterized and highly immunogenic purified H. pylori-specific multi-component antigen preparation containing urease and free of cross-reacting flagellar proteins (18,21). The test was performed according to manufacturer's instructions. Briefly, patient and control samples were diluted and allowed to react for 15 min at 37oC with H. pylori antigen-coated beads. After a washing step, the peroxidase-conjugated goat anti-human IgG antibody was added and incubated for 15 min at 37oC. After removal of the unbound conjugate by a washing step, the beads were incubated with a substrate solution containing tetramethylbenzidine and hydrogen peroxide. The enzymatic reaction was stopped by the addition of acid, and absorbance at 450 nm was determined. The concentrations of IgG antibody in the serum samples were determined by interpolation from a standard curve constructed by dilution of the positive control and by plotting absorbance values obtained for each standard against the corresponding anti-H. pylori concentrations (in U/ml). The values within ± 10% of the cutoff were considered to be equivocal.

The performance of the test was evaluated by determining the sensitivity, specificity and positive and negative predictive values with a 95% confidence interval (CI).

The interassay reproducibility of the test was evaluated by testing 20 positive serum samples (10 from patients with duodenal ulcer and 10 from patients with gastritis) and 10 negative serum samples (selected at random) on different days and the intra-assay reproducibility by testing twice the same sera on the same day.

The c2 test was used to compare proportions between groups (sex distribution and sensitivity). Analysis of variance for variables of normal distribution and the Kruskal-Wallis test for variables of asymmetrical distribution were employed to evaluate differences in IgG concentration and differences in age among groups. Spearman's correlation was used to compare IgG concentration and patient age. The level of significance was set at P<0.05.

H. pylori was identified by microbiological methods in 65 of the 97 (67.0%) patients studied. The H. pylori-positive (with and without peptic ulcer) and -negative groups were similar with respect to age (P = 0.81) and gender (P = 0.78).

Anti-H. pylori antibodies were detected in 62 of 65 (95.4%) H. pylori-positive subjects and in none of the negative ones (Table 2). There were no equivocal results. Among the 3 patients who were H. pylori-positive by microbiological methods but who were negative by serology, 2 had gastritis alone and 1 had peptic ulcer. The sensitivity, specificity and positive and negative predictive values of ELISA, with their 95% CI, for adults were 95.4% (88.5-98.4%), 100% (96.4-100%), 100% (96.4-100%) and 91.4% (83.5-95.9%), respectively (Table 2). There was no significant difference in sensitivity between patients with (96.7%) and without peptic ulcer (94.1%) (P = 1.0). No significant differences (P = 0.71) in IgG concentration were observed in these groups (median = 56.2 U/ml, range 5.0 to 597.9 U/ml for patients with peptic ulcer, and median = 37.1 U/ml, range 2.1 to 1041.2 U/ml for patients without peptic ulcer).

In regard to inter- and intra-assay reproducibility, 29 of 30 serum samples showed identical qualitative results on repeated testing on different days and on the same day.

There was no significant difference in IgG concentration between the sera from males (mean = 98.5 U/ml, SD = 120.0) and females (mean = 120.9 U/ml, SD = 169.8) with peptic ulcer (P = 0.68). In contrast, the IgG concentration in the sera from females with gastritis (median = 53.3 U/ml, range 15.8 to 1041.2 U/ml) was significantly higher than in males with gastritis (median 14.2 U/ml, range 2.1 to 436.4 U/ml) (P = 0.008). No differences in IgG concentration were observed among adults of different ages (P = 0.12).

Several ELISA tests are commercially available to diagnose H. pylori infection in adults. Their sensitivity and specificity depend on the gold standards used to compare the tests, the nature of the antigens employed and the value chosen for the cutoff. Employing 3 methods as gold standard - culture on BHM whose sensitivity is comparable to that of PCR (21), carbolfuchsin-stained smears and preformed urease test - and considering H. pylori positivity to be present when at least 2 tests were positive or if the culture was positive, and H. pylori negativity to be present when all 3 tests were negative, we observed high sensitivity (95.4%) and specificity (100%) of Cobas Core for the diagnosis of H. pylori infection in adults.

As reported by others (12,15), the results of the present study demonstrated that the intra- and the interassay reproducibility of this ELISA was excellent.

Although the number of patients in this study was not very large, the size of the sample was sufficient, as demonstrated by the less than 10% amplitude of the 95% CI for all indicators of the test.

Thus, the high sensitivity (95%) observed permits the safe use of the test in epidemiologic surveys. However, this value is not sufficiently high to exclude the diagnosis of infection in the presence of a negative test at the individual level, although the probability of the existence of disease in this situation is low. On the other hand, the 100% specificity we observed permits us to confirm the diagnosis of infection when the result is positive.

Employing the same ELISA kit and considering a truly positive result when culture and/or histology was positive, a similar result was demonstrated by Goossens et al. (12) for Belgian patients (93 and 96% sensitivity and 95 and 91% specificity for adults 18-40 years old and >40 years old, respectively). Debongnie et al. (22), also in Belgium, using culture, and Trautmann et al. (18) in Germany, using bacterial detection in histological sections, culture, urease test and Western blot as gold standard (with the patient considered to be positive when one of the tests was positive), demonstrated 98.6 and 96% sensitivity and 94.4 and 97% specificity for the Cobas Core, respectively.

An explanation for this high sensitivity and specificity of the Cobas Core is the use of second-generation antigens consisting of highly immunogenic purified H. pylori proteins, including urease, a fact that increases sensitivity, and free of flagellar proteins, a fact that prevents cross-reaction with microorganisms of the genus Campylobacter and, therefore, increases specificity (18,23). In this study we observed high specificity, as also observed by several investigators in developed countries. In the present study anti-H. pylori antibodies were not detected in any of the non-infected patients (100% specificity). Probably the three methods of diagnosing infection used and the rigid criteria for establishing negativity contributed to the fact that no patient was erroneously classified as H. pylori negative. However, in some populations the specificity of the test is very low as observed by Goossens et al. (12) for Mediterranean patients and by Antoine et al. (13) for the French patients, indicating that the ELISA must be validated for different populations.

The serologic test was negative in three patients found to be H. pylori positive by microbiological methods (two with gastritis and one with duodenal ulcer). Similar false-negatives have been reported by several investigators (12,13). The most likely explanation is that in some patients no systemic IgG antibodies will occur although H. pylori can be detected from the gastric biopsy specimens, i.e., they failed to seroconvert. Another explanation is that, although the kit employed contained several antigenic components including urease, which is highly immunogenic, some patients may harbor bacterial strains with few antigenic determinants in common with the strains used to obtain the antigen. In this case, the use of another ELISA employing a different antigen or of another method for antibody detection such as immunoblotting may demonstrate the presence of anti-H. pylori IgG. Furthermore, since in Brazil the infection occurs at an early age, the patients with gastritis may develop atrophy of the gastric mucosa with a consequent decrease in number of bacteria, a fact that may alter the production of antibodies. However, histological examination of the false-negative cases observed here did not reveal atrophy but only the presence of chronic gastritis of moderate intensity.

As reported by others (23,24), in the present study we also observed that IgG concentration in adults does not permit the discrimination between gastritis and duodenal ulcer. We have no explanation for the observation that the IgG concentration in the sera from females with gastritis was significantly higher than in males with gastritis.

In conclusion, the ELISA for H. pylori diagnosis presented high sensitivity and specificity when employed for a population in one state in Brazil, permitting the use of the test both to confirm the clinical diagnosis and to perform epidemiologic surveys. However, in order to rule out H. pylori infection with safety in the presence of a negative test, the use of a more sensitive method or of a combination of methods becomes necessary for clinical diagnosis.

Address for correspondence: D.M.M. Queiroz, Laboratório de Pesquisa em Bacteriologia, FM, UFMG, Av. Alfredo Balena, 190, S. 4026, 30130-100 Belo Horizonte, MG, Brasil. Fax: +55-31-274-2767. E-mail: dqueiroz@medicina.ufmg.br

Research supported by CNPq, FAPEMIG, PRPq/UFMG and FINEP. Received January 8, 1998. Accepted August 3, 1998.

Discussion

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  • Correspondence and Footnotes

  • Publication Dates

    • Publication in this collection
      19 Oct 1998
    • Date of issue
      Oct 1998

    History

    • Accepted
      03 Aug 1998
    • Received
      08 Jan 1998
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